SU935894A1 - Device for ac voltage control - Google Patents

Description

The invention relates to electrical engineering, in particular, converting technology, and can be used, for example, in power supplies of electronic equipment with a stabilized output voltage. ⁵

Known devices for regulating AC voltage, containing a transformer with taps, a control unit and threshold elements of the respective regulation steps £ 1]. ¹⁰

The closest to the proposed apparatus is for controlling an alternating voltage comprising a transformer, the primary winding terminals ¹⁵ which ki through respective oonovnye driven keys are connected with one of the input terminals and the control unit with the threshold elements of respective stages regulation ^].

A disadvantage of the known device is the low stability of the output voltage when changing the magnitude of the supply voltage in a given range of regulation.

The purpose of the invention is to increase the stability of the output voltage for a given range of regulation.

This goal is achieved by the fact that in the known device containing the transformer, the primary windings of which are connected through the corresponding main controlled keys to one of the input terminals, and the control unit with threshold elements of the respective control stages, a corresponding additional key is connected in series with the main controlled key of each transformer output a controlled key, and the control electrodes of the primary and secondary controlled keys of each control stage are connected They are connected to the output of the control unit through the opening contact of the threshold element of the given control stage and the closing contact of the threshold element of the previous control stage.

The drawing shows a functional diagram of the device.

The circuit contains a transformer 1, 5 primary and secondary windings 2 and 3 of the transformer 1, respectively, taps · 4-7 of the corresponding regulation stages of the primary winding 2} 8-11 and 12-15 - the main and additional controlled keys, respectively; 16-20 - threshold elements of the corresponding regulation levels; control unit 21; 22 - the output of the control unit 21; 23-26 and 27-30 - open and close contacts of threshold elements 16-20 respectively;

and 32 input pins of the device.

Consider the operation of the device by the example of increasing the supply voltage. 20

In the initial position, the contacts 2326 of the threshold elements 17-18 are respectively closed, and the contacts 27-30 of the threshold elements 16-20 are respectively open. 25

When applied to the input terminals 31 and the supply voltage, the value of which is below a predetermined lower limit of regulation, none of the threshold elements 16-20 does not change its ₃₀ state.

In this case, the main controlled keys 8-11 are open, and the additional controlled keys 12-15 are closed by the corresponding control circuits, and the supply voltage does not enter the primary winding 2 of the transformer 1,

When the mains voltage rises and the value of the lower control limit is reached, the threshold element 16 is activated and closes its contact 27, through which the control electrode of the additional controlled key 12 is connected to the output 22 of the control unit 21. ₄₅

As a result, the output 4 of the primary winding 2 is connected to the input output 31, and the supply voltage is supplied to the transformer 1, in the secondary windings 3 of which the specified output voltage values are induced.

With a further increase in the supply voltage, the threshold element 17 is activated, which opens its contact 23 and closes the contact 28.

As a result, the main ⁵⁵ key 8 is turned off and the additional key 13 is turned on, and the voltage of the supply network.

arrives at terminal 5 of the primary winding ·. 2.

When the threshold elements 18 and 19 are triggered due to an increase in the supply voltage, terminals 6 and 7 are connected to the input terminal 31 in series.

When the value of the supply voltage of the upper control limit is exceeded, a threshold element 20 is triggered, which opens the contact 26 and thereby disconnects the primary winding 2 of the transformer 1 from the supply network by breaking the control circuit of the main key 11.

With a decrease in the supply voltage, the regulation process is carried out similarly, but in the reverse order, i.e. first, threshold elements 20, 19, 18, 17 and, finally, 16 are turned off, providing sequential switching of pins 7, 6, 5, and 4 rel. regarding input terminal 31.

Claims (2)

The invention is about electrical engineering, in part to converter technology, and can be used, for example, in power supplies of electronic equipment with a stabilized output voltage. Devices for adjusting the alternating voltage are known, comprising a transformer with taps, a control unit and threshold elements of the respective power control stages 1. Closest to the proposed device is a device for controlling an alternating voltage, which contains a fan for ator, the primary windings of which are connected to one of the input terminals through appropriate oHomoiie controllers, and the control unit with threshold elements of the corresponding stages is regulated (The disadvantage of the known device is The low stability of the puffer voltage at a change in the magnitude of the supply voltage in a given control range is the aim of the invention. output voltage at a given control range. The goal is achieved by the fact that in a well-known device containing a transformer, the outputs of the primary winding of which are connected to one of the input terminals, and the control unit with the threshold elements of the corresponding control steps, with the main control key of each transformer pin, the corresponding additional control key is turned on, and the control electrodes of the UN and supplement The individual control of the keys of each stage of control is connected to the output of the control unit through the opening contact of the threshold element of this stage of the roping circuit and the closing step of the element of the previous control stage. The drawing shows the functional diagram of the device. The circuit contains transformer 1, the primary and secondary windings of transformer 1, respectively, taps 4–7 of the corresponding steps of adjustment of the primary winding 2, 8–11 and 12–15 are the main and additional control keys, respectively; 16–20 are the threshold elements of the corresponding adjustment steps; control unit 21; 22 - the output of the control unit 21; 23-26 and 27-30 - opening and closing contacts of the threshold elements 16-20, respectively; 31 and 32 input pins of the device. Consider the operation of the device at the same time as the supply voltage. In the initial position, the contacts 2326 of the threshold elements 17–18 are respectively closed, and the contacts 27 –30 of the threshold elements 16–20 are respectively open. When applied to the input terminals 31 and 32 of the supply voltage, the value of which is lower than the specified lower limit of control, none of the threshold elements 16-20 changes its state. At the same time, the main controlled clutches 8-11 are open, and the additional controlled keys 12-15 are closed along the respective control circuits, and the supply voltage does not flow to the primary winding 2 of the transformer 1. When the mains voltage increases and the value of the lower one reaches the control limit triggered the threshold element 16 and its contact 2 through which the control electrode of the supplementary control key 12 is connected to the output 22 of the control unit 21. As a result, the output 4 of the primary switch 2 is connected to the input pin 31, and the supply voltage goes to the transformer 1, in the secondary windings 3 of which the rear values of the output voltage are induced. With further supply voltage, threshold element 17 is triggered, which opens its contact 23 and closes contact 28. As a result, the main switch 8 is turned off and the additional switch 13 and the supply voltage are turned on. It enters output 5 of primary winding D-2. When threshold elements 18 and 19 are triggered due to an increase in supply voltage, pins 6 and 7 are connected to input terminal 31, respectively. When the supply voltage of the upper limit of the control voltage is exceeded, the pores element is triggered. 20, which opens contact 26 and thereby disconnects the primary winding 2 of transformer 1 from the supply mains by breaking the control circuit of the main switch 11. As the supply voltage decreases, the control process is performed Similar, but in reverse order, i.e. first, threshold elements 20, 19, 18, 17 and finally 16 are disconnected, providing serial switching of leads 7, 6, 5 and 4 relative to input terminal 31. Invention A device for controlling an alternating voltage containing a transformer, the primary windings of which through The corresponding power controlled keys are connected to one of the input viewpoints, and the control unit with threshold elements of the corresponding control stages, characterized in that, in order to improve the stability of the output voltage at The appropriate additional control key is connected in accordance with the main control key of each transformer end in the appropriate control range, and the control electrodes of the main and additional control keys of each control stage are connected to the output of the control unit through the break contact of the threshold element of the control stage and closing contact of the threshold element of the previous stage of adjustment, respectively. Sources of information taken into consideration in expert case 1. USSR author's certificate No. 700856, cl. Q 05 P 1/14, 1980. 2. USSR author's certificate number 626429, cl. Q 05 F 1/14, 1978. i) -e. 21